Researchers / Institutional Affiliations
Principal Investigator
- Prof P. Lee Ferguson
Duke University
(US)
Collaborators
- Dr. Mark R. Wiesner
Duke University
(US) - Dr Maria del Prado Domercq
Stockholm University
(Sweden)
Timeline
October 2021 to September 2024
Additional Information
There is a significant gap in understanding of the environmental fate of plastics additives. These may include synthetic organic chemicals such as dyes and plasticizers, and surface coatings such as water/stain repellents. Risk assessments for these additives in aquatic environments depends on being able to measure and predict exposure of sensitive receptors – such as plants, animals, habitats and ecosystems – to these materials. Robust models are needed to assess leaching of substances from plastics into water, and to understand the fate of nano- and micro-plastics ingested by organisms. Challenges to developing models include molecular diversity among polymer-associated chemicals; varied types, sizes, and formulations of polymers; complexity in nano-/micro-plastic transport and degradation; and variability in receptor organism digestion. This project aims to address these challenges and create a robust, generalizable model to predict polymer additive release, transformation and bioaccessibility in aquatic environments. Laboratory experiments will be carried out to test the model, which is expected to advance understanding and inform risk assessments.
Further details are available here.
Professional Presentations
Sipe J, Lewis A, Santizo K, Pfohl P, Lopez B, Harrison S, Wohlleben W, Wiesner M, Ferguson PL. Modeling Fragmentation and Additive Release from Polymers and Microplastics. ACS Spring Polymer Fragmentation: March 2024.
Sipe J, Lewis A, Santizo K, Pfohl P, Lopez B, Harrison S, Wohlleben W, Wiesner M, Ferguson PL. Modeling Fragmentation and Additive Release from Polymers and Microplastics. Society of Polymer Engineers: February 2024.
Sipe J, Lewis A, Santizo K, Pfohl P, Lopez B, Harrison S, Wohlleben W, Wiesner M, Ferguson PL. Modeling Fragmentation and Additive Release from Polymers and Microplastics. AEESP: June 2023
Published Papers
N/A